Fluid power transmitter



Feb. 9 1926.

v I1,571,954 E. B. LAMBERT FLUID. POWER TRANSMITTER Filed sept. 25', 1924 4 sheets-sheet y1 Feb. 9 1926. 1,571,954

E. B. LAMBERT l FLUID POWER TRANSMITTER Filed Sept. 25, 1924 4 Sheets-Sheet 2 Feb. 9 1926.

E B. LAMBERT FLUID 'POWERV TRANSMITTER Filed Sept. 25, 1924 4 Sheets-Sheet 5 Feb. 9 1926.

21,571,954 E. B. LAMBERT FLUID POWER TRANSMITTER Filed Sept. 25, 1924 4 Sheets-Sheet 4 Patented Feb. 9, 1926.

y UNITED STATES PATENT OFFICE.

' More specifically it is my -object to supply l EnmUNn B. LAMBERT, or snraui., MINNESOTA.

l FLUID POWER. TRArsilntlTJiIt.` application mea september as, 1924. serial no. 739,870.

i of disclosing more clearly the structural ar- Be it known. that I, EDMUND B. LAMBERT, rangement thereof; Fig. 6 is an end view of a citizen of the United States, residing at the propelling rotor; Fig. 7 is alsidevview of St. Paul, in the county of Ramsey and State said rotor; Fig. 8 is a lon tudinal sectional 60 Vof Minnesota, have invented a new and vView of the -movable filer segment and useful Fluid Power Transmitter, of which clutch operating mechanism, said view being the following'isa' specification. taken as on the line 8 -8 of Fig. 4; Fig. 9 My .invention relates to improvements in is a perspective view, in detail, illustratn a fiuid .power transmitting devices and its obportion of the mechanismfor operating e 65 ject, broadly, is to provide a simple, efficient shifter rings and Fig. 10 is. a perspective `and durable means for variably transmit' view of -a blade of the type used in. thev ting power through the medium of 'a fiuid. drivenrotor and stator.

Referring to the drawings, it ,will .be obl' a com act device, particularly, though not s served that. 'm `improvement inclgdes a 70 exclusively, adapted for use in motor driven 'housing A, a painof aligned shafts B, C arvehicles, said device being designed to elimiranged axially of the housing and reachin nate the use of the conventional clutch, and thereinto from opposite ends of said houstransmission gears and to supplant therefor ing, a driving rotor D on the end of the supply in a device of the present class, a ,25

forward and reverse` operations.

a unitary, hydraulic mechanism, capable of shaftjC within the housin a driven roto'"s effecting an infinite, smooth variation of E 4carried by the inner en of the shaft B power and speed within given limits during .at one side of the driving rotor D and a stator F fixed within the housing at the A further object of my. invention is to other side of the driving rotor D.

The housing AAcomprises a cylindrical 8 0 combination of rotors and a stator co-opcasing 10 and end plates 10, 10b secured l verating through the medium. of a power." thereto by means of bolts 11, a gasket 11 transmitting fluid transferable from one elebeing interposed between said end plates and ment to another, said elements embodying casing to insure against the leakage of fiuid `means for controlling the transference of with which said housing filled. The end 85 'fluidto vary the speed of the driven element plates 10, 10h are formed with bearin 10', with respect to the speedv of the driving ele- 102'for the shafts B, C and are threa ed at ment, said means' also .serving to -tra'p the thelr `outer endsY to' receive glands 12.

fluidv against transference and thus form a Brackets 13 reaching'outward from the sides- I' view, which will appear inthe following defluid lock between the driving and driven of the .casing 10l provide anchoring means '90' elements directly 4connecting the same'. for securing the device to a vehicle or other With thel vforegoing' and other objects in frame:` 0- The driving rotor D, resembling a wheel, scription, the invention resides inthe novel comprises a hub 14, spokes-.15 and a rim 16,

4 f f -combination and arrangement of 'parts and the hub 14 beingkeyed t'o the shaft C. .0n 95 l 40 scribed and claimed.'

inthe details ofconstruction hereinafter delone side -of the rim` 16 is a segmentahproy l '.tuberanceor fixed cam member 17 (Fig.f5), Inf the drawings, Figi 1 is a sideelevw beveled at its ends as shown! In said side tional view of a' uidpowerftransmitter emof said I riin and between the extremities of bodyin my Vinventiointhe housing of the said cam vmember 17 is a segmental recss` deviceing'brokenaway to expose working'. 18 containing a filler'segment or shiftable A mechanisms otherwise-.hidden; Fi'g.1"is a cam member- 19. slidable axially ofthe rotor i l5c f'view taken on the line3-3 of-Fig. l; Fig.

` 4 is a similar sectional view taken onthesidewof the'rini 16 is .i a. fixed 2 is a central longitudinal, sectional view."Fig.7),

detail view of'an actuating rodnfthe deand movable .between retracted position, vice and latchipg mechanismSi thereforfFigf sheathed withinthe rim 16 (dotted lines of the device; Fig, 3 is a transverse sectional Fig. 7) the gap between the ends of the fixed cani' members'17.l On the other' cam member line 4 4 of Fig. 1.; Fig. 5 comprises per- 17 `and a filler segment oi-shiftable cam spective views of the rotors and stator, said f member 19n 'in a recess 18a in said rim, both 1m"- parts ben'g'disassociated from their mountvmembers being structurally identical Vwith 4ings and axially separated forthe purpose the similar parts V17, 19,]'u'st described, but'.v

folxteded position (broken lines n -f similar parts. The ends of 'the 'segmental recesses 18, 18* containing the'filler segments 19, 19* are reduced in width at the ends thereof to accommodate vthe ends of said iiller. segments 19, 19'l which are correspondingly reduced, said reduced ends of said' recessesbeing continued outward through the beveledfends of the fixed cam members 17, 17 and forming grooves 20, 20'* in the former and grooves 21, 21a in the latter. A Vduct 22 formed in the rim 16 diagonally thereof connects the groove with the groove 21 while a similar duct 23 in said rim connects the groove 20 with the groove 21. The tongue-like reduced ends of the filler segments 19, 19l move outward and back in said grooves 20, 20* and 21, 21 when said segments are extended and retracted. This tongue 'and groove construetion results in complete annular continuity in the bearing surfaces provided by the cam members 17, 19 and 17, 19IL without objectionably blocking the passageways through the ducts 22, 23, as will be later understood. The driven rotor E is also a. wheel-like structure. Y' It includes a hub 24: keyed on the shaft B, spokes-25 and a rim 26. Spaoed slots 27 formed in the rim 26 slidably receive plate-like blades or gates 28. These slots are Acut into the rim from the outer side thereof and arearranged to carry said blades, longitudinally, in parallelism with the axis of the rotor and laterally, in planes intercepting said axis. The inner side ofthe rim 26 has an annular'groove 29 therein cutting the inner ends of the slots 27 between their lateral extremities. This groove receives the adjacent composite protuberance, on the driving rotor l), formed by the cam member 17 and the segment 19 in extended position, said protuberance being proportioned to lill said groove 29, vye permit of free relative rotation of the riving and driven rotors D, E. Confined within each of the blade guiding slots 27 ,and interposed between its'respective blade' 28 and an annular backing plate 30, secured against the outerJside of the rim 26, is an expansion 1 spring 31. Thesdsprings 31 operating upon the blades 28 yieldingly hold the inner ends fo'f said blades 28 against the faces of the cam 1nember'-` 17 and filler segment 19, said inner ends of said blades being recessed to straddle the. composite annular protuberance formed on thedriving rotor D by said cam ,member 17 and fillerl segment 19.

The stator F, includinga rim 26, spokes -25a and hub 24:* is centered in the housing A by means of blocks 32 interposed between the rim 26* and casing 10, said blocks being secured to said rim in any suitable manner and anchoed to said casing as by means of bolts 33. The hub 24:* revolubly receives the shaft C and supplies a journal therefor.

' Lernen The rim 26- of thestator E is formed; and' i equipped in simulation of the rim 26 of the driven rotor-E, reference characters applied to the rim structure of Vthe stator being the 'that the segmental protuberance or fixed cam member 17* and the -filler segment Vor .movable cam member 19* on the driving rotor D iit and turn in the annular, groove 29"* in the stator in the same manner as the similar cam members 17 ,"19 on said driving i rotor D it and turn in Vthe annular groove' 29 in the driven rotor With the foregoing description in mind and assuming that 'the -ller segments are retracted, it Iwill be understood that a 'chamber is formed in the annular groove 29 of the driven rotor E between the ends of the cam member 17 and that asimilar chamber is formed in the annular groove 29'L of the stator F between' the ends of the cam member 171. These chambers and the'ducts22, '23 in the driving rotor D, which aiord communication between said chambers, are filled with oil or other suitable power transmitting fluid. And here, it will be observed that by-pa-ss apertures 34 formed in the liller seg ments-19, 19* allow 'oil to pass from said chambers to the inner portions of the ller segment receiving recesses 18, 18EL or 'vice versa and thereby permit of the extension and retragtion of said filler segments. Further, it will be noted that opposed lo Uitudinal grooves 35 formed mediall of tie sides of the blades 28, 28 permit o the unimpeded projection of said blades into their respective grooves, 29, 29 and the ready return of the blades. f e

In explanation of the operation of the main power transmitting elements thus far set forth, assume that the iiller segments 19,

19a are both fully retracted. `11n this'relaf tion oi said'segments equal quantities ofoil are"conined within the chambers in the rotor E and stator F between the ends 'of the'cam members 17, and 1-7". With the drivin'g rotor D, turning clockwise (Fig. 5), .the

blades 28 inl-he stator F and the blades/115.

28 in the driven rotorE follow the bearing surfaces of the cam members `17", V19' and tive chamber, the vblades 28 of the drivenl L rotor force the oil -from saidchamber into the duct '23 and back to the chamber in the stator F. Since the two fluidchambers are' now of equal capacity, it will be understood that the driving rotor may idle without imparting-any appreciable propelling .force to 'the driven rotorE when both of the filler chamber 1n the stator I4 an segments 19, 19'* are fully retracted. This ability of thedrivingrotor to'idle suits the device'to many different pur osos, as will be obvious. The driven rotor is propelled in the direction of the driving rotor D at any desired'l speed up to that of the driving rotor by extending the filler segment 19l more or less, into the fluid chamber in the stator between the ends of the cam member 17 a. Partial projection of the filler segment 19a reduces the ca acity of said chamber. Thus' reduced, the .lades 28 of the driven rotor E- are unable to` return the normal iow of Huid to the stator F. This conditie obtaining, it will be-understood that sai rotor will be turned in the direc driving rotor D, the' controlled sli l ag'e between the` driven rotor janddriving rotor depending upon thel ca acit of theiiuid the resultant quantity of fluid permitted to be freturned` 1 from the iuid'chamber inthe driven'rotor.

'Reaching fullyT projected segment 19a fills the lfluid c amber in the stasition, the filler tor F and arreststhe circulation of the fluid.

Being trapped inthe chamber inthe drivenl rotor E', thejiuid therein, cooperating with the rotor blades 28,'locks the driven rotor E to the 'drivingrotor'D,v With the driving" rotor D running idle, a partial extension -of the filler Segment19 causes `the driven rotor E to turn reversely of the driving rotor. This extension of saidsegment reduces the capacity ofthev fluid chamber in the driven rotor E. .Since'the stator F Vis fixed a ainst 4, rotation and its', filler segment 19-ful y retracted', itwillbeunders'tood that the maximum quant-ity of fluid will be forced from the iiuid chamberin the stator to the now reduced fluid chamber in the driven rotor E; For this reason, the drivenv rotor E, following the direction of .least resistance,

turnsI in oppositionl to the driving rotor D and at a speed great enough to accommodate the inflow of iuidthereto from the stator F.-

Means employed for 'shifting the filler segments19 and19a-into and out ofI their respective fluid chambers includes a pair of shifter lrings 36 'fand .37 encircling the driving rotor D and slidably. mounted upon guide rods 38.` These guide\rods are disposed longitudinally within the housing A between thehlocks 32 and lugs 39 pro]ect ing inwardly from the casing 10. Said rings 36 and 37 are-grooved at their inner peripheriesl as at 36, 37, the groove 36% forming a way in the ring 36 for an annulus.

40 and the groove 37;* forming' a way in the to and fro on the guide rods to extend and.

retract their-respective filler segments 19a,

19. The ring 36 has aradial lstud 44 (Fig.

9) extending from its outer surface and eln-l braced by t e forked end 45EL of a shifting llever 45 rising'from a rock-shaft 46 reach-v ing through vand journaled in the side of the casin 10. The ring 37 also has? a stud 47 exten l ng therefrom and embracedby the forked-end of a shifting lever 48, which rises from a rock-shaft 49 reaching through and journaled in "the side of the casing 10. An arm 50-on the outer end ofsaid latter `rock-shaft 49 is connected through a link 51 and lever 52 'with va rod 53 which is` reciprocated by hand or otherwise to shift the filler segment 19 in the drivingLrotor D.v

' While I have'illustrated but one shifting leverv for each ring 36, 37 it will be under-y stood that duplicates of -said .levers may be employed and co-ordinated with the levers shown tomeet the resistance encountered. The rock-.shaft 46,- like the`rock-shaft 49, is fitted with an arm 54 at its outer end and while this arm might well bel rocked back and forth by lany slmple mechanism to shift theY ring 36, I associate said arm 54 with a shifter mechanism G. which has the dual 1 A function of rocking the'arm 54 and operat- -ing a jaw clutch, which 's interposed between the driven and drivin rotors E, D to relieve said rotors from linternal strains that would otherwise occurwhen the former 'is turned in unisonwith the latter by reason ofthe fluid lock between them.

The jaw clutch includes" a fixed toothed member 55 on the'hub 14 of the driving rotor D and a movable toothed member 56 slidable on 'the hub 24'of the driven rotor E. Sliderodsr- 57 secured 'aty their inner ends to the `movable too hed member 56, reach through the hub 24 nd connect at their outerends with an externally grooved collar 58 slid'ably mounted on a bearing 59 formed integral with the end plate p10, A oke() with its'A branches fitted inL the groove in said collar depends from a shaft 61 which traverses the` casing .10.' Dependingffrom the end of the shaft 61 extending through the casing wall is an arm 62 having a slot 63 at-the lower end thereof: The shifter mechanism G, now

to be described, co-ordinates the movement of the arm 54 and the arm 62, whereby the jaw clutch members 55, 56 are engaged after cover plate, a carriage block 69 longitudinally slidable between the guide plate 68 and the bottom of, said boi; structure 64 ,and-a slide block' 70 within said carriage block. A rod 71 is threaded at` oe end in the slide block and connects with the slotted end of the lever arm 62 at its other end. A second horizontal rod' 72 is threaded in the opposite end of said slide block and is connected at its other end with the slotted lower extremity of a lever73 tiltable on a stud74. The carriage block 69 is provided with `apertures 75,176 at the top and bottom thereof,-

respectively, caging steel balls 75, 7 6a. Said balls 75, 76, held by the guide plate 68 and bottomf ofthe structure 64 seat in concave recesses 7 5", 7 6h in .the slide block 70 and secure said slide block and carriage block 69l against relative longitudinal movement, said balls being capable of receding into recesses 77, 78 in the guide plate 69 and bottom of thc structure 64 to free the-carriage block 69 fromv the slide block 70. A pin 79 carried b the carriage block 69 and reaching througi a slot (not shown) in the inner side of the box structure 64 is embraced by the forked end 5430i the arm. 54 on the rock-shaft 46.

When the carriage block 69 occupies the position shown in Fig. 8, the-balls 75, 76a are seated in the recesses 75, 76" in the slide block 70. When the rodl 72 is moved to the right (Fig. 8), as by means of an actuating rod 80 connected with the lever 73,V the carriage block 69 and slide block 70 move to, gather until the apertures 75, 7 6A are brought into position opposite the companion concave recesses 77, 7 8in the guideI plate 68 and the bottom of the box-structure 64. At this point,v the movement of the carriage 'block 69 is arrested by a stop 81 provided on the guide plate 68, the balls 75 and 76a being forced into the recesses 77 and 78v by the continued movement of the slide block 70,

4thereby releasing said slide block from engagement with said Vcarriage block. The

movement of the carriage block to position against its stop 8l extends the filler segment 19* through the medium of the pin `79,. arm

54;, rock-shaft 46, lever 45, shifter ring 36, annulus 40 and pins 42. The continued movement of said slide block 70 after the movement of said carriaoe block 69 has been arrested by the stop F81 is sutlicient to carry the slidable clutch member 56 into engage- Lerner-1 ment with its companion 'chiteh member'55- through the medium of the rod 71,' arm 6 2,

shaft 61, yoke 6() and rods 57. At the beginning of the' return thrustof the lslide block 70 (movement to the left; Fi 8)., the

jaw clutch members are disenga" followsegment 19* isl retracted bythe movement ot said carriage block. An adjusting screw 82 threaded in the end of the box structure supplies a means for altering the sliding limit of the carriage block 69 and hencel varies the limit of Aretraction of the filler segment 19a. Y

From the foregoing it will be understood that the actuating (push-pull) rods 53, 80 control the operation of the device. Set as shown in Fig. l, the driving rotor 'idlea Pushing upon the rod 80 starts the driven rotor E in the direction of the driving rotor D, the speed of the former with respect to the latter depending upon the ad]ustment of said rod 80. Pulling upon the rod. 53 starts said driven rotor E in opposition to theY rotating drivingrotor, theV speed of said driven rotor, in reverse, depending upon the adjustment of the rod 53.

The rod 53 is fitted with a tug.83 (Fig. 1*) having at its upper side a shoulder 84 and catch 85. A springV pressed stop-latch 86` ivoted on a stationary support 87 and reeasable throu h a ull 88, supplies an abut ent'for the s oul er 84 anda latch vfor the c tch on the lug 83. Impingement of the shoulder 84 against the stop-latch 86 guards against the accidental p ling of the rod 58 so far that the iller segment 19 is completely extended. Such complete extension I of said filler segment, with the driving rotor D in motion, would result in injury to the stator F wherein the power transmitting fluid would then be trapped.' Withy thev driving rotor D motionless, it is safe to completely extend the filler segment '19. This may be done by first elevating the stop-latch through the medium of the pull 88 and thereafter pulling upon the`rod 53. Carried by said rod 53 to position of engagement with the stop-latch 86, the shoulder 84 secures the rod 53 in position keeping the filler seg` ment 19 extended. Now, the shaft may be freely turned for any of the various reasons that might arise in the employment of the device, such, for example as the moving of an automobile by outside power. In addition to. the 'functions of the rod 53 hereinp,

before explained, said rod may be employed .to cause the braking of the driven rotor E.

understoed that the driven rotor E' cannot .be turned on account of the fluid lock in the stator F./A push-upon the rod 53, therefore, will cause the braking of the 'driven rotor E when the 'driving rotor Vis not in motion. If the driving'rotor is turning and the driven rotor E rotating in the 'same direction, a ull upon the rod' 80 partially retracting t e filler .segment v19a will slowy down the speed of the driven rotor E proportionately' to such retraction of said segment 19. Continuing the retraction of the liller segment 19a by said rod 80, the driven.

rotor E is further slowed down to the point of being locked when said segment reaches position ofcomplete retraction. l

Changes in' the specific form of my invention, as herein disclosed, mayvbe madewith.- ing the scope of whatis clamied Without departing from the spirit of my. invention.

Having described my invention, what I claim as new and desire to protect -by Letters Patent is: u

1'. Ina ower'transmitting device of the class described, a housing, drive and drivlen shafts aligned andI journaled withinr said housin a propelling rotor mounted on the drive s aft and formed with a lfixed segmental protuberance at either` side of the rim thereof, `movable filler segments Aslidably seated in saidrim and adapted tol form continuations of said segmental protuberances,

a stator fixed: within said housingat oneside of the propelling rotor, said stator being formed with an annular" groove in `the inner side of the rim thereof to slidably receive the .segmental protuberance and movable filler ent on the `adjacent side of the pro-v ling rotor, spaced `radial blades slldable mithe rim of the stator, in the direction of the stator'axis, to and trom positions inter-` ance onone side of said pro lling rotorto the corresponding extremitles of the protuberance on the oppositeside'of the pro-- pelling rotor, a palr of shifter'ringsencircling said propelling' rotor and slidably axially thereof within the housing, said rings being joined with said filler segments, independent means .for severally shifting said rings, co-operating clutch members asrecleivin sociated with said driven rotor and propblling rotor, and actuating means for said clutch. members operable by the shifting means for one of said rings.

.2. In a power transmitting device of the vclass described, a pair of axially aligned.

contacting rotors and a stator contacting' with one of saidV rotors and axially aligned with respect thereto, one of each ofthe contacting elements belng formed with a fluid receiving groove in its contacting face, a fixed filler segment and a movable iller segment complementing each groove and carried by lthe adjacent contacting element, ducts in the intermediate element afordirig circuit'ous communication between those portions of the two grooves, not occupied by the movable iiller segments, an individual set otl blades carried by each ooved element, each blade of each set ing yielding-ly slidable into its respective groove and against the faces of the xed and movable filler segments therein, independent means for severally shiftin said movable filler segments, clutch vmec anisms including cooperatingvmembers associated with said rotors, and actuting means for one of said vclutch members operable through the medium of the shifting means for one of the movable segments. I i l' 3. 4In a power transmitting device of the class described, .a pair of axially aligned contacting rotors and a stator' contactin with one of said rotorsnd axiall aligne with respect, thereto, one of each o the contactingelements being formed with a iuid groove inA its contacting face, a fixed l er segment and a movable ller segment complementing each groove'and cars ried by the adjacent contacting' element, ducts 1n the. intermediateelement affording circuitous .communication `between those .portions of the two grooves, not `occupied by the movable filler segments,an individual set of blades carried by each grooved element, each blade of each set being yieldingly slidable into its respective groove and against the faces of the fixed and movable filler segments therein, and 1n ans for shifting said movable filler segm nts. f

#14. In apower transmitting device of the class described, a pair of axially aligned contacting :rotors and .a stator Contactin withsone of said rotors and axiall aligne with respect thereto, one of each o the' con.

tacting lelemeclrits being formed with a iiuid receiving groove in its contacting `face, a

xed iller segment and a movable filler segment complementing each groove and carried bythe adjacent contacting element, ducts in the intermediate element affordmg .circuitous communication between those portions of thetwo grooves, not occupied by'v the movable filler segments, an individual set of blades carried by each grooved element,

aan and@ of each see-being yieidingiy elia! able into its resctive groove and against the faces of the ments therein, and independent means for ,severally shifting said movable ller4 seg- 5. In a power transmitting device of theA i' class described a pair of axially aligned contacting rotors and a 'stator contacting with one of said rotors and axially aligned with respect thereto, one of each of the con tacting elements being formed with a fluid receiving groove in its contacting face, a fixed filler segment and a movable filler segment complementing each groove and carried by the adjacent contacting element.

ducts in the intermediate element affording circuit'ous communication between those portions of the two grooves not occupied by the movable filler segments, an individua-l set of blades carried by each grooved clement, each blade of each set being yieldingly sli'dable into its respective gr ve and against the faces of the fixed arfd `movable filler segments therein. L

6. In a device of the class described, a driven rotor, a stator and a driving rotor interposed between the drivenl rotor and 'a stator and a driving rotor, said elementsbeing disposed side by side, the intermediate and one of the ,other elements forming a co-operating pair having an annularly shitable Huid chamber between them,isaid,inter-' mediate and the Yother element comprising ai second pair of co-operating elements hav ing an annularlyshiftable fluid chamber lbetween the same, said intermediate element' being formedwith passageways affordingv communication `between adjacent ends of; said chambers, an adjustable ller member, carried by one element of the first pair and.' adapted to alter-the capacity of the. vk{inidchamber betwen the elements of said pair,-

ed and movable ller segg and a second filler segment carried by onev element of the second air for altering the capacity of the fluid c amber between the elements of said pair, blades on oneelement of the first pair and bladeslon one element of the second pair, said blades being arranged ,to respectively intercept, the fluid chambers formed by said paired elements.

8. In a device of the class described, three elements, viz; a driven rotor, a stator and a driving rotor, all having a. common axis, the intermediate and one of the other elements forming a co-operating pair having an annular-ly shiftable iuid chamber between them, said intermediate and the other operating, elements having a annularly shiftable fluid chamber betwee the same, said intermediate element being formed with passageways affording communicationv between 'adjacent ends of said chambers, an

.element comprising a second pair of coadjustable filler member carried by one element of the first pair and adapted to alter the capacity of the Huid chamber between the elements of said pair, gates on one ele-y ment of the first pair and gates on one element of the second pair, said gates being" arranged to respectively interccptrthe fluid chambers formed by said paired elements.

9. In a device of the class described, three elements, viz; a driven rotor, a stator and 'a driving rotor, all having a common axis,

the intermediate and one `of the other elei ments forming a co-operating pair having an annularly shiftable fluid chamber between them, said intermediate and the other.

element comprising a second pair of co-operating elements having an annularly shiftable fluid chamber between the same, said'v intermediate element being formed with passageways afordmg communication between adjacent ends of. said chambers, a seg- 4 mental member carried by one element of the, rst pair and adjustable to alter the capacity of the fluid chamber between said element, and its companion element, ,gateson said companion element co-operating with said segmental memberand gates on one elementL of the second pair, said gates being arranged to respectively intercept the fluid chambers formed by said paired elements. j

' In'testimony whereof, I have signed my name to` this specification.

EDMUND BLAMBET. 

